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[54.225.227.206]) by mx.google.com with ESMTPS id 38si6576013qgr.2.2014.05.30.10.53.51 for (version=TLSv1 cipher=RC4-SHA bits=128/128); Fri, 30 May 2014 10:53:52 -0700 (PDT) Received-SPF: none (google.com: lng-odp-bounces@lists.linaro.org does not designate permitted sender hosts) client-ip=54.225.227.206; Received: from localhost ([127.0.0.1] helo=ip-10-141-164-156.ec2.internal) by ip-10-141-164-156.ec2.internal with esmtp (Exim 4.76) (envelope-from ) id 1WqQyp-00024M-5a; Fri, 30 May 2014 17:52:35 +0000 Received: from rcdn-iport-7.cisco.com ([173.37.86.78]) by ip-10-141-164-156.ec2.internal with esmtp (Exim 4.76) (envelope-from ) id 1WqQye-00024H-Ji for lng-odp@lists.linaro.org; Fri, 30 May 2014 17:52:25 +0000 X-IronPort-AV: E=Sophos;i="4.98,942,1392163200"; d="scan'208";a="329232764" Received: from rcdn-core-10.cisco.com ([173.37.93.146]) by rcdn-iport-7.cisco.com with ESMTP; 30 May 2014 17:53:35 +0000 Received: from cpp-rtpbld-55.cisco.com (cpp-rtpbld-55.cisco.com [172.18.5.199]) by rcdn-core-10.cisco.com (8.14.5/8.14.5) with ESMTP id s4UHrYOX031303 (version=TLSv1/SSLv3 cipher=DHE-RSA-AES256-SHA bits=256 verify=NO); Fri, 30 May 2014 17:53:34 GMT Received: from cpp-rtpbld-55.cisco.com (localhost.localdomain [127.0.0.1]) by cpp-rtpbld-55.cisco.com (8.13.8/8.13.8) with ESMTP id s4UHrYPE001714; Fri, 30 May 2014 13:53:34 -0400 Received: (from robking@localhost) by cpp-rtpbld-55.cisco.com (8.13.8/8.13.8/Submit) id s4UHrY1N001713; Fri, 30 May 2014 13:53:34 -0400 From: Robbie King To: lng-odp@lists.linaro.org Date: Fri, 30 May 2014 13:53:28 -0400 Message-Id: <1401472408-1666-1-git-send-email-robking@cisco.com> X-Mailer: git-send-email 1.8.2.1 X-Topics: patch Subject: [lng-odp] [PATCH] IPsec example application X-BeenThere: lng-odp@lists.linaro.org X-Mailman-Version: 2.1.14 Precedence: list List-Id: List-Unsubscribe: , List-Archive: List-Post: , List-Help: , List-Subscribe: , MIME-Version: 1.0 Errors-To: lng-odp-bounces@lists.linaro.org Sender: lng-odp-bounces@lists.linaro.org X-Original-Sender: robking@cisco.com X-Original-Authentication-Results: mx.google.com; spf=pass (google.com: domain of patch+caf_=patchwork-forward=linaro.org@linaro.org designates 2607:f8b0:400c:c03::233 as permitted sender) smtp.mail=patch+caf_=patchwork-forward=linaro.org@linaro.org; dkim=fail header.i=@cisco.com Mailing-list: list patchwork-forward@linaro.org; contact patchwork-forward+owners@linaro.org X-Google-Group-Id: 836684582541 Initial code drop of ODP example application which exercises the ODP crypto API. The test application functions as a simple L3 router, forwarding packets between multiple interfaces based on IPv4 destnation address. Route information is specified on the command line. In addition, the application will perform IPsec AH/ESP transport encap/decap processing on packets. The IPsec parameters for security associations and profiles are also specified on the command line (similar in concept to the Linux "setkey" utility). A README file is also included to explain an example test topology and method. The application will exercise the crypto API in either synchronous or asynchronous mode. PREREQUISITES: - The "linux-generic crypto" patch must be applied as the test application links with it. - The app also links with SSL "-lcrypto" (sudo apt-get install libssl-dev) CAVEATS: - The application has been tested on X86 platform. - The application has not been linked or tested (it has been compiled) on ARM platform. I am working to get an ARM system setup so that I can avoid cross compiling and hopefully unit test. TODO: - The idea is to get this patch out in advance of the June 2013 crypto sprint, so I apologize for the incompleteness. - The command line configuration processing needs better error detection and reporting. - There is significant room for performance improvements, this initial drop is about functionallity. - The ability to use the ODP packet buffer to convey the crypto API completion event needs to be revisited. Signed-off-by: Robbie King --- include/helper/odp_ipsec.h | 73 ++ test/ipsec/Makefile | 44 + test/ipsec/README | 157 +++ test/ipsec/odp_example_ipsec.c | 2334 ++++++++++++++++++++++++++++++++++++++++ 4 files changed, 2608 insertions(+) create mode 100644 include/helper/odp_ipsec.h create mode 100644 test/ipsec/Makefile create mode 100644 test/ipsec/README create mode 100644 test/ipsec/odp_example_ipsec.c diff --git a/include/helper/odp_ipsec.h b/include/helper/odp_ipsec.h new file mode 100644 index 0000000..9d29651 --- /dev/null +++ b/include/helper/odp_ipsec.h @@ -0,0 +1,73 @@ +/* Copyright (c) 2014, Linaro Limited + * All rights reserved. + * + * SPDX-License-Identifier: BSD-3-Clause + */ + + +/** + * @file + * + * ODP IPSec headers + */ + +#ifndef ODP_IPSEC_H_ +#define ODP_IPSEC_H_ + +#ifdef __cplusplus +extern "C" { +#endif + +#include +#include +#include +#include + +#define ODP_ESPHDR_LEN 8 /**< IPSec ESP header length */ +#define ODP_ESPTRL_LEN 2 /**< IPSec ESP trailer length */ +#define ODP_AHHDR_LEN 12 /**< IPSec AH header length */ + +/** + * IPSec ESP header + */ +typedef struct ODP_PACKED { + uint32be_t spi; /**< Security Parameter Index */ + uint32be_t seq_no; /**< Sequence Number */ + uint8_t iv[0]; /**< Initialization vector */ +} odp_esphdr_t; + +/** @internal Compile time assert */ +ODP_ASSERT(sizeof(odp_esphdr_t) == ODP_ESPHDR_LEN, ODP_ESPHDR_T__SIZE_ERROR); + +/** + * IPSec ESP trailer + */ +typedef struct ODP_PACKED { + uint8_t pad_len; /**< Padding length (0-255) */ + uint8_t next_header; /**< Next header protocol */ + uint8_t icv[0]; /**< Integrity Check Value (optional) */ +} odp_esptrl_t; + +/** @internal Compile time assert */ +ODP_ASSERT(sizeof(odp_esptrl_t) == ODP_ESPTRL_LEN, ODP_ESPTRL_T__SIZE_ERROR); + +/** + * IPSec AH header + */ +typedef struct ODP_PACKED { + uint8_t next_header; /**< Next header protocol */ + uint8_t ah_len; /**< AH header length */ + uint16be_t pad; /**< Padding (must be 0) */ + uint32be_t spi; /**< Security Parameter Index */ + uint32be_t seq_no; /**< Sequence Number */ + uint8_t icv[0]; /**< Integrity Check Value */ +} odp_ahhdr_t; + +/** @internal Compile time assert */ +ODP_ASSERT(sizeof(odp_ahhdr_t) == ODP_AHHDR_LEN, ODP_AHHDR_T__SIZE_ERROR); + +#ifdef __cplusplus +} +#endif + +#endif diff --git a/test/ipsec/Makefile b/test/ipsec/Makefile new file mode 100644 index 0000000..be822b5 --- /dev/null +++ b/test/ipsec/Makefile @@ -0,0 +1,44 @@ +# Copyright (c) 2013, Linaro Limited +# All rights reserved. +# +# SPDX-License-Identifier: BSD-3-Clause + +ODP_ROOT = ../.. +ODP_APP = odp_ipsec + +include $(ODP_ROOT)/Makefile.inc +include ../Makefile.inc + +OBJS = +OBJS += $(OBJ_DIR)/odp_example_ipsec.o + +DEPS = $(OBJS:.o=.d) + +.PHONY: default +default: $(OBJ_DIR) $(ODP_APP) + +-include $(DEPS) + +# +# Compile rules +# +$(OBJ_DIR)/%.o: %.c + $(ECHO) Compiling $< + $(CC) -c -MD $(EXTRA_CFLAGS) $(CFLAGS) -o $@ $< + +# +# Link rule +# +$(ODP_APP): $(ODP_LIB) $(OBJS) + $(CC) $(LDFLAGS) $(OBJS) $(ODP_LIB) $(STD_LIBS) -lcrypto -o $@ + +.PHONY: clean +clean: + $(RMDIR) $(OBJ_DIR) + $(RM) $(ODP_APP) + $(MAKE) -C $(ODP_DIR) clean + +.PHONY: install +install: + install -d $(DESTDIR)/share/odp + install -m 0755 $(ODP_APP) $(DESTDIR)/share/odp/ diff --git a/test/ipsec/README b/test/ipsec/README new file mode 100644 index 0000000..d98a840 --- /dev/null +++ b/test/ipsec/README @@ -0,0 +1,157 @@ +1. Intro + +The IPsec example application "odp_ipsec" functions as a simple L3 IPv4 router +with support IPsec 3DES cipher and HMAC-MD5 authentication in both the transmit +and receive directions. Note that only IPsec "transport" mode is supported. + +2. Prerequisites + + 2.1 SSL development libraries + +Development has been done to this point with the openssl-devel libraries, +the makefile specifically links with "-lcrypto". + +3. Topology + +The following test topology was used for development. Each of the VMs +is running Fedora16. Sanity testing consists of pinging VM2 from VM0 +such that the packets traverse VM1. Packets between VM1 and VM2 are +IPsec AH and ESP encapsulated. + + VM0 VM1 (UUT) VM2 ++------------+ +--------------+ +------------+ +| | (clear) | | (crypto) | | +| | subnet | | subnet | | +| p7p1 |<---------------->| p7p1 p8p1 |<---------------->| p7p1 | +| .2 | 192.168.111.0 | .1 .1 | 192.168.222.0 | .2 | +| | | | | | ++------------+ +--------------+ +------------+ + +4. VM configurations + + 4.1 VM0 configuration + +VM0 has the follwing interface configuration: + + cat /etc/sysconfig/network-scripts/ifcfg-p7p1 + DEVICE=p7p1 + HWADDR=08:00:27:76:B5:E0 + BOOTPROTO=static + IPADDR=192.168.111.2 + NETMASK=255.255.255.0 + ONBOOT=yes + +In addition, static ARP and IPv4 routes must be added on VM0: + + sudo ip route add 192.168.222.0/24 via 192.168.111.1 + sudo ip route add 192.168.222.0/24 via 192.168.111.1 + + 4.2 VM1 configuration + +For the unit under test, IP forwarding and IP tables were disabled. + +VM1 has the follwing interface configurations: + + cat /etc/sysconfig/network-scripts/ifcfg-p7p1 + DEVICE=p7p1 + HWADDR=08:00:27:04:BF:8C + BOOTPROTO=static + IPADDR=192.168.111.1 + NETMASK=255.255.255.0 + ONBOOT=yes + + cat /etc/sysconfig/network-scripts/ifcfg-p8p1 + DEVICE=p8p1 + HWADDR=08:00:27:4C:55:CC + BOOTPROTO=static + IPADDR=192.168.222.1 + NETMASK=255.255.255.0 + ONBOOT=yes + +The application is launched on VM1 with the following command line +using a bash script: + + cat test/ipsec/run_test.sh + #!/bin/bash + sudo ./odp_ipsec -i p7p1,p8p1 \ + -r 192.168.111.2/32:p7p1:08.00.27.76.B5.E0 \ + -r 192.168.222.2/32:p8p1:08.00.27.F5.8B.DB \ + -p 192.168.111.0/24:192.168.222.0/24:out:both \ + -e 192.168.111.2:192.168.222.2:3des:201:656c8523255ccc23a66c1917aa0cf30991fce83532a4b224 \ + -a 192.168.111.2:192.168.222.2:md5:200:a731649644c5dee92cbd9c2e7e188ee6 \ + -p 192.168.222.0/24:192.168.111.0/24:in:both \ + -e 192.168.222.2:192.168.111.2:3des:301:c966199f24d095f3990a320d749056401e82b26570320292 \ + -a 192.168.222.2:192.168.111.2:md5:300:27f6d123d7077b361662fc6e451f65d8 \ + -c 2 -f 0 -m 0 + + 4.3 VM2 configuration + +VM2 must be setup with an IPsec configuration complementing +the configuration used by the "odp_ipsec" application running +on VM1. The configuration is applied using "setkey" + +VM2 has the following setkey configuration file applied: + + cat /media/sf_SharedVM2/setkey_vm2.txt + #!/sbin/setkey -f + + # Flush the SAD and SPD + flush; + spdflush; + + add 192.168.111.2 192.168.222.2 ah 0x200 -A hmac-md5 + 0xa731649644c5dee92cbd9c2e7e188ee6; + add 192.168.222.2 192.168.111.2 ah 0x300 -A hmac-md5 + 0x27f6d123d7077b361662fc6e451f65d8; + + add 192.168.111.2 192.168.222.2 esp 0x201 -E 3des-cbc + 0x656c8523255ccc23a66c1917aa0cf30991fce83532a4b224; + add 192.168.222.2 192.168.111.2 esp 0x301 -E 3des-cbc + 0xc966199f24d095f3990a320d749056401e82b26570320292; + + spdadd 192.168.111.2 192.168.222.2 any -P in ipsec + esp/transport//require + ah/transport//require; + + spdadd 192.168.222.2 192.168.111.2 any -P out ipsec + esp/transport//require + ah/transport//require; + +VM2 has the follwing interface configuration: + + cat /etc/sysconfig/network-scripts/ifcfg-p7p1 + DEVICE=p7p1 + HWADDR=08:00:27:F5:8B:DB + BOOTPROTO=static + IPADDR=192.168.222.2 + NETMASK=255.255.255.0 + ONBOOT=yes + +In addition, static ARP and IPv4 routes must be added on VM2: + + sudo ip route add 192.168.111.0/24 via 192.168.222.1 + sudo arp -s 192.168.222.1 08:00:27:4c:55:cc + +5. Sanity Test + +Once all three VMs have been configured and static ARP and route +entries added, VM0 should be able to ping VM2 at the 192.168.222.2 +address. + +At VM0 console issue the ping to VM2's address: + + sudo ping -c 2 -i 0.1 192.168.222.2 + PING 192.168.222.2 (192.168.222.2) 56(84) bytes of data. + 64 bytes from 192.168.222.2: icmp_req=1 ttl=64 time=33.9 ms + 64 bytes from 192.168.222.2: icmp_req=2 ttl=64 time=23.3 ms + +At VM2 console use tcpdump to observe IPsec packets : + + sudo tcpdump -nt -i p7p1 + tcpdump: verbose output suppressed, use -v or -vv for full protocol decode + listening on p7p1, link-type EN10MB (Ethernet), capture size 65535 bytes + + IP 192.168.111.2 > 192.168.222.2: AH(spi=0x00000200,seq=0x6): ESP(spi=0x00000201,seq=0x6), length 88 + IP 192.168.222.2 > 192.168.111.2: AH(spi=0x00000300,seq=0x7a): ESP(spi=0x00000301,seq=0x7a), length 88 + IP 192.168.111.2 > 192.168.222.2: AH(spi=0x00000200,seq=0x7): ESP(spi=0x00000201,seq=0x7), length 88 + IP 192.168.222.2 > 192.168.111.2: AH(spi=0x00000300,seq=0x7b): ESP(spi=0x00000301,seq=0x7b), length 88 \ No newline at end of file diff --git a/test/ipsec/odp_example_ipsec.c b/test/ipsec/odp_example_ipsec.c new file mode 100644 index 0000000..f35f840 --- /dev/null +++ b/test/ipsec/odp_example_ipsec.c @@ -0,0 +1,2334 @@ +/* Copyright (c) 2013, Linaro Limited + * All rights reserved. + * + * SPDX-License-Identifier: BSD-3-Clause + */ + +/** + * @file + * + * @example odp_example_ipsec.c ODP basic packet IO cross connect with IPsec test application + */ + +#include +#include +#include +#include + +#include +#include +#include +#include +#include +#include +#include +#include + +#include +#include +#include +#include + +#include +#include +#include +#include + +#define boolean bool +#define TRUE 1 +#define FALSE 0 + +#define MAX_WORKERS 32 +#define SHM_PKT_POOL_SIZE (512*2048) +#define SHM_PKT_POOL_BUF_SIZE 4096 +#define MAX_PKT_BURST 16 + +#define MAX_DB 32 + +#define MSG_POOL_SIZE (1024 * 1024) /**< Message pool size */ +#define MSG_POOL_BUF_SIZE (1024) + +/** + * Parsed command line application arguments + */ +typedef struct { + int core_count; + int if_count; /**< Number of interfaces to be used */ + char **if_names; /**< Array of pointers to interface names */ + int type; /**< Packet IO type */ + int fanout; /**< Packet IO fanout */ + int async; /**< Crypto API preferred mode (1 = async) */ + odp_buffer_pool_t pool; /**< Buffer pool for packet IO */ +} appl_args_t; + +/** + * Thread specific arguments (currently none, leave as placeholder) + */ +typedef struct { +} thread_args_t; + +/** + * Grouping of both parsed CL args and thread specific args - alloc together + */ +typedef struct { + /** Application (parsed) arguments */ + appl_args_t appl; + /** Thread specific arguments */ + thread_args_t thread[MAX_WORKERS]; +} args_t; + +/* helper funcs */ +static void parse_args(int argc, char *argv[], appl_args_t *appl_args); +static void print_info(char *progname, appl_args_t *appl_args); +static void usage(char *progname); + +/** Global pointer to args */ +static args_t *args; + +/** Buffer pool for crypto session creation completion events */ +static odp_buffer_pool_t msg_pool = ODP_BUFFER_POOL_INVALID; + +/** ATOMIC queue for IPsec sequence number assignment */ +static odp_queue_t seqnumq; + +/** ORDERED queue (eventually) for per packet crypto API completion events */ +static odp_queue_t completionq; + +/** IPv4 helpers for data length and uint8t pointer */ +#define ipv4_data_len(ip) (odp_be_to_cpu_16(ip->tot_len) - sizeof(odp_ipv4hdr_t)) +#define ipv4_data_p(ip) ((uint8_t *)((odp_ipv4hdr_t *)ip + 1)) + +/** Helper for calculating encode length using data length and block size */ +#define ESP_ENCODE_LEN(x, b) ((((x) + (b - 1)) / b) * b) + +/** Get rid of path in filename - only for unix-type paths using '/' */ +#define NO_PATH(file_name) (strrchr((file_name), '/') ? \ + strrchr((file_name), '/') + 1 : (file_name)) + +/** Synchronize threads before packet processing begins */ +static odp_barrier_t sync_barrier; + +/** + * IP address range (subnet) + */ +typedef struct ip_addr_range_s { + uint32_t addr; /**< IP address */ + uint32_t mask; /**< mask, 1 indicates bits are valid */ +} ip_addr_range_t; + +/** + * Packet processing states/steps + */ +typedef enum { + PKT_STATE_INPUT_VERIFY, /**< Verify IPv4 and ETH */ + PKT_STATE_IPSEC_IN_CLASSIFY, /**< Initiate input IPsec */ + PKT_STATE_IPSEC_IN_FINISH, /**< Finish input IPsec */ + PKT_STATE_ROUTE_LOOKUP, /**< Use DST IP to find output IF */ + PKT_STATE_IPSEC_OUT_CLASSIFY, /**< Intiate output IPsec */ + PKT_STATE_IPSEC_OUT_SEQ, /**< Assign IPsec sequence numbers */ + PKT_STATE_IPSEC_OUT_FINISH, /**< Finish output IPsec */ + PKT_STATE_TRANSMIT, /**< Send packet to output IF queue */ +} pkt_state_e; + +/** + * Packet processing result codes + */ +typedef enum { + PKT_CONTINUE, /**< No events posted, keep processing */ + PKT_POSTED, /**< Event posted, stop processing */ + PKT_DROP, /**< Reason to drop detected, stop processing */ + PKT_DONE /**< Finished with packet, stop processing */ +} pkt_disposition_e; + +/** + * Per packet IPsec processing context + */ +typedef struct { + uint8_t ip_tos; /**< Saved IP TOS value */ + uint16_t ip_frag_offset; /**< Saved IP flags value */ + uint8_t ip_ttl; /**< Saved IP TTL value */ + int hdr_len; /**< Length of IPsec headers */ + int trl_len; /**< Length of IPsec trailers */ + uint16_t ah_offset; /**< Offset of AH header from buffer start */ + uint16_t esp_offset; /**< Offset of ESP header from buffer start */ + + /* Output only */ + struct odp_crypto_op_params params; /**< Parameters for crypto call */ + uint32_t *ah_seq; /**< AH sequence number location */ + uint32_t *esp_seq; /**< ESP sequence number location */ +} ipsec_ctx_t; + +/** + * Per packet processing context + */ +typedef union { + struct { + pkt_state_e state; /**< Next processing step */ + ipsec_ctx_t ipsec; /**< IPsec specific context */ + odp_queue_t outq; /**< transmit queue */ + }; + uint8_t pad[256]; /**< Ensure no overlap with crypto */ +} pkt_ctx_t; + +/** + * Adjust IPv4 length + * + * @param ip Pointer to IPv4 header + * @param adj Signed adjustment value + */ +static +void ipv4_adjust_len(odp_ipv4hdr_t *ip, int adj) +{ + ip->tot_len = odp_cpu_to_be_16(odp_be_to_cpu_16(ip->tot_len) + adj); +} + +/** + * Get per packet processing context from packet buffer + * + * This is a hack for the moment to place it at the end of the + * buffer. Note that the crypto library also has a similar hack + * so we space our packet context 256 bytes from the end to prevent + * overlap. + * + * @param buf Buffer associated with packet + * + * @return pointer to context area + */ +static +pkt_ctx_t *get_ctx_from_buf(odp_buffer_t buf) +{ + uint8_t *temp; + pkt_ctx_t *ctx; + + /* + * Setup packet context, + */ + temp = odp_buffer_addr(buf); + temp += odp_buffer_size(buf); + temp -= sizeof(*ctx); + ctx = (pkt_ctx_t *)(void *)temp; + return ctx; +} + +/** + * Check IPv4 address against a range/subnet + * + * @param addr IPv4 address to check + * @param range Pointer to address range to check against + * + * @return 1 if match else 0 + */ +static +int match_ip_range(uint32_t addr, ip_addr_range_t *range) +{ + return (range->addr == (addr & range->mask)); +} + +/** + * Query MAC address associated with an interface + * + * @param intf String name of the interface + * @param src_mac MAC address used by the interface + * + * @return 0 if successful else -1 + */ +static +int query_mac_address(char *intf, uint8_t *src_mac) +{ + int sd; + struct ifreq ifr; + + /* Get a socket descriptor */ + sd = socket(PF_PACKET, SOCK_RAW, htons(ETH_P_ALL)); + if (sd < 0) { + ODP_ERR("Error: socket() failed for %s\n", intf); + return -1; + } + + /* Use ioctl() to look up interface name and get its MAC address */ + memset(&ifr, 0, sizeof(ifr)); + snprintf(ifr.ifr_name, sizeof(ifr.ifr_name), "%s", intf); + if (ioctl(sd, SIOCGIFHWADDR, &ifr) < 0) { + ODP_ERR("Error: ioctl() failed for %s\n", intf); + return -1; + } + memcpy(src_mac, ifr.ifr_hwaddr.sa_data, 6); + + /* Fini */ + close(sd); + + return 0; +} + +/** + * Parse text string representing a key into ODP key structure + * + * @param keystring Pointer to key string to convert + * @param key Pointer to ODP key structure to populate + * @param cipher TRUE indicates cipher key else authentication + * @param alg Cipher/authentication algorithm associated with the key + * + * @return 0 if successful else -1 + */ +static +int parse_key_string(char *keystring, + odp_key_t *key, + boolean cipher, + odp_crypto_alg_t alg) +{ + /* Brute force */ + if (cipher && (alg.cipher == ODP_CIPHER_ALG_3DES_CBC)) { + if (48 == strlen(keystring)) { + int idx; + char temp[3]; + + /* K1 */ + for (idx = 0; idx < 8; idx++) { + temp[0] = *keystring++; + temp[1] = *keystring++; + temp[2] = 0; + key->des.k1[idx] = strtol(temp, NULL, 16); + } + + /* K2 */ + for (idx = 0; idx < 8; idx++) { + temp[0] = *keystring++; + temp[1] = *keystring++; + temp[2] = 0; + key->des.k2[idx] = strtol(temp, NULL, 16); + } + + /* K3 */ + for (idx = 0; idx < 8; idx++) { + temp[0] = *keystring++; + temp[1] = *keystring++; + temp[2] = 0; + key->des.k3[idx] = strtol(temp, NULL, 16); + } + return 0; + } + } + if (!cipher && (alg.auth == ODP_AUTH_ALG_MD5_96)) { + if (32 == strlen(keystring)) { + int idx; + char temp[3]; + + for (idx = 0; idx < 16; idx++) { + temp[0] = *keystring++; + temp[1] = *keystring++; + temp[2] = 0; + key->md5.key[idx] = strtol(temp, NULL, 16); + } + return 0; + } + } + return -1; +} + +/** + * Parse text string representing a MAC address into byte araray + * + * String is of the format "XX.XX.XX.XX.XX.XX" where XX is hexadecimal + * + * @param macaddress Pointer to MAC address string to convert + * @param mac Pointer to MAC address byte array to populate + * + * @return 0 if successful else -1 + */ +static +int parse_mac_string(char *macaddress, uint8_t *mac) +{ + int macwords[6]; + int converted; + + converted = sscanf(macaddress, + "%x.%x.%x.%x.%x.%x", + &macwords[0], &macwords[1], &macwords[2], + &macwords[3], &macwords[4], &macwords[5]); + if (6 != converted) + return -1; + + mac[0] = macwords[0]; + mac[1] = macwords[1]; + mac[2] = macwords[2]; + mac[3] = macwords[3]; + mac[4] = macwords[4]; + mac[5] = macwords[5]; + + return 0; +} + +/** + * Parse text string representing an IPv4 address or subnet + * + * String is of the format "XXX.XXX.XXX.XXX(/W)" where + * "XXX" is decimal value and "/W" is optional subnet length + * + * @param ipaddress Pointer to IP address/subnet string to convert + * @param addr Pointer to return IPv4 address + * @param mask Pointer (optional) to return IPv4 mask + * + * @return 0 if successful else -1 + */ +static +int parse_ipv4_string(char *ipaddress, uint32_t *addr, uint32_t *mask) +{ + int b[4]; + int qualifier = 32; + int converted; + + if (strchr(ipaddress, '/')) { + converted = sscanf(ipaddress, "%d.%d.%d.%d/%d", + &b[3], &b[2], &b[1], &b[0], + &qualifier); + if (5 != converted) + return -1; + } else { + converted = sscanf(ipaddress, "%d.%d.%d.%d", + &b[3], &b[2], &b[1], &b[0]); + if (4 != converted) + return -1; + } + + if ((b[0] > 255) || (b[1] > 255) || (b[2] > 255) || (b[3] > 255)) + return -1; + if (!qualifier || (qualifier > 32)) + return -1; + + *addr = b[0] | b[1] << 8 | b[2] << 16 | b[3] << 24; + if (mask) + *mask = ~(0xFFFFFFFF & ((1ULL << (32 - qualifier)) - 1)); + + return 0; +} + +/** + * Generate text string representing IPv4 address + * + * @param b Pointer to buffer to store string + * @param addr IPv4 address + * + * @return Pointer to supplied buffer + */ +static +char *ipv4_addr_str(char *b, uint32_t addr) +{ + sprintf(b, "%03d.%03d.%03d.%03d", + 0xFF & ((addr) >> 24), + 0xFF & ((addr) >> 16), + 0xFF & ((addr) >> 8), + 0xFF & ((addr) >> 0)); + return b; +} + +/** + * Generate text string representing IPv4 range/subnet, output + * in "XXX.XXX.XXX.XXX/W" format + * + * @param b Pointer to buffer to store string + * @param range Pointer to IPv4 address range + * + * @return Pointer to supplied buffer + */ +static +char *ipv4_subnet_str(char *b, ip_addr_range_t *range) +{ + int idx; + int len; + + for (idx = 0; idx < 32; idx++) + if (range->mask & (1 << idx)) + break; + len = 32 - idx; + + sprintf(b, "%03d.%03d.%03d.%03d/%d", + 0xFF & ((range->addr) >> 24), + 0xFF & ((range->addr) >> 16), + 0xFF & ((range->addr) >> 8), + 0xFF & ((range->addr) >> 0), + len); + return b; +} + +/** + * Generate text string representing MAC address + * + * @param b Pointer to buffer to store string + * @param mac Pointer to MAC address + * + * @return Pointer to supplied buffer + */ +static +char *mac_addr_str(char *b, uint8_t *mac) +{ + sprintf(b, "%02X.%02X.%02X.%02X.%02X.%02X", + mac[0], mac[1], mac[2], mac[3], mac[4], mac[5]); + return b; +} + +/** + * Security Assocation (SA) data base entry + */ +typedef struct sa_db_entry_s { + struct sa_db_entry_s *next; /**< Next entry on list */ + boolean cipher; /**< TRUE if cipher else auth */ + uint32_t src_ip; /**< Source IPv4 address */ + uint32_t dst_ip; /**< Desitnation IPv4 address */ + uint32_t spi; /**< Security Parameter Index */ + odp_crypto_alg_t alg; /**< Cipher/auth algorithm */ + odp_key_t key; /**< Cipher/auth key */ + uint32_t block_len; /**< Cipher block length */ + uint32_t iv_len; /**< Initialization Vector length */ + uint32_t icv_len; /**< Integrity Check Value length */ +} sa_db_entry_t; + +/** + * Security Assocation (SA) data base global structure + */ +typedef struct sa_db_s { + uint32_t index; /**< Index of next available entry */ + sa_db_entry_t *list; /**< List of active entries */ + sa_db_entry_t array[MAX_DB]; /**< Entry storage */ +} sa_db_t; + +/** Global pointer to sa db */ +static sa_db_t *sa_db; + +/** Initialize SA database global control structure */ +static +void init_sa_db(void) +{ + sa_db = odp_shm_reserve("shm_sa_db", + sizeof(sa_db_t), + ODP_CACHE_LINE_SIZE); + if (sa_db == NULL) { + ODP_ERR("Error: shared mem alloc failed.\n"); + exit(EXIT_FAILURE); + } + memset(sa_db, 0, sizeof(*sa_db)); +} + +/** + * Create an SA DB entry + * + * String is of the format "SrcIP:DstIP:Alg:SPI:Key" + * + * @param input Pointer to string describing SA + * @param cipher TRUE if cipher else FALSE for auth + * + * @return 0 if successful else -1 + */ +static +int create_sa_db_entry(char *input, boolean cipher) +{ + int pos; + char *local, *str, *save; + sa_db_entry_t *entry = &sa_db->array[sa_db->index]; + + /* Verify we have a good entry */ + if (MAX_DB <= sa_db->index) + return -1; + + /* Make a local copy */ + local = malloc(strlen(input) + 1); + if (local == NULL) + return -1; + strcpy(local, input); + + /* Set cipher versus auth */ + entry->cipher = cipher; + + /* count the number of tokens separated by ',' */ + for (str = local, save = NULL, pos = 0;; str = NULL, pos++) { + char *token = strtok_r(str, ":", &save); + + /* Check for no more tokens */ + if (token == NULL) + break; + + /* Parse based on postion */ + switch (pos) { + case 0: + parse_ipv4_string(token, &entry->src_ip, NULL); + break; + case 1: + parse_ipv4_string(token, &entry->dst_ip, NULL); + break; + case 2: + if (cipher) { + if (0 == strcmp(token, "3des")) { + entry->alg.cipher = + ODP_CIPHER_ALG_3DES_CBC; + entry->block_len = 8; + entry->iv_len = 8; + } else { + entry->alg.cipher = ODP_CIPHER_ALG_NULL; + } + } else { + if (0 == strcmp(token, "md5")) { + entry->alg.cipher = + ODP_AUTH_ALG_MD5_96; + entry->icv_len = 12; + } else { + entry->alg.auth = ODP_AUTH_ALG_NULL; + } + } + break; + case 3: + entry->spi = strtol(token, NULL, 16); + break; + case 4: + parse_key_string(token, + &entry->key, + cipher, + entry->alg); + break; + default: + return -1; + } + } + + /* Verify all positions filled */ + if (5 != pos) + return -1; + + /* Add route to the list */ + sa_db->index++; + entry->next = sa_db->list; + sa_db->list = entry; + + return 0; +} + +/** + * Display the SA DB + */ +static +void dump_sa_db(void) +{ + sa_db_entry_t *entry; + + printf("\n" + "Security association table\n" + "--------------------------\n"); + + for (entry = sa_db->list; NULL != entry; entry = entry->next) { + uint32_t idx; + char src_ip_str[32]; + char dst_ip_str[32]; + uint8_t *p = (uint8_t *)&entry->key; + + + printf(" %s %s %s %X %d ", + entry->cipher ? "esp" : "ah ", + ipv4_addr_str(src_ip_str, entry->src_ip), + ipv4_addr_str(dst_ip_str, entry->dst_ip), + entry->spi, + entry->cipher ? + (int)entry->alg.cipher : + (int)entry->alg.auth); + + /* Brute force key display */ + for (idx = 0; idx < sizeof(odp_key_t); idx++) + printf("%02X", *p++); + + printf("\n"); + } +} + +/** + * Find a matching SA DB entry + * + * @param src Pointer to source subnet/range + * @param dst Pointer to destination subnet/range + * @param cipher TRUE if cipher else FALSE for auth + * + * @return pointer to SA DB entry else NULL + */ +static +sa_db_entry_t *find_sa_db_entry(ip_addr_range_t *src, + ip_addr_range_t *dst, + boolean cipher) +{ + sa_db_entry_t *entry = NULL; + + /* Scan all entries and return first match */ + for (entry = sa_db->list; NULL != entry; entry = entry->next) { + if (cipher != entry->cipher) + continue; + if (!match_ip_range(entry->src_ip, src)) + continue; + if (!match_ip_range(entry->dst_ip, dst)) + continue; + break; + } + return entry; +} + +/** + * Security Policy (SP) data base entry + */ +typedef struct sp_db_entry_s { + struct sp_db_entry_s *next; /**< Next entry on list */ + ip_addr_range_t src_subnet; /**< Source IPv4 subnet/range */ + ip_addr_range_t dst_subnet; /**< Destination IPv4 subnet/range */ + boolean input; /**< Direction when applied */ + boolean esp; /**< Enable cipher (ESP) */ + boolean ah; /**< Enable authentication (AH) */ +} sp_db_entry_t; + +/** + * Security Policy (SP) data base global structure + */ +typedef struct sp_db_s { + uint32_t index; /**< Index of next available entry */ + sp_db_entry_t *list; /**< List of active entries */ + sp_db_entry_t array[MAX_DB]; /**< Entry storage */ +} sp_db_t; + +/** Global pointer to sp db */ +static sp_db_t *sp_db; + +/** Initialize SP database global control structure */ +static +void init_sp_db(void) +{ + sp_db = odp_shm_reserve("shm_sp_db", + sizeof(sp_db_t), + ODP_CACHE_LINE_SIZE); + if (sp_db == NULL) { + ODP_ERR("Error: shared mem alloc failed.\n"); + exit(EXIT_FAILURE); + } + memset(sp_db, 0, sizeof(*sp_db)); +} + +/** + * Create an SP DB entry + * + * String is of the format "SrcSubNet:DstSubNet:(in|out):(ah|esp|both)" + * + * @param input Pointer to string describing SP + * + * @return 0 if successful else -1 + */ +static +int create_sp_db_entry(char *input) +{ + int pos; + char *local, *str, *save; + sp_db_entry_t *entry = &sp_db->array[sp_db->index]; + + /* Verify we have a good entry */ + if (MAX_DB <= sp_db->index) + return -1; + + /* Make a local copy */ + local = malloc(strlen(input) + 1); + if (local == NULL) + return -1; + strcpy(local, input); + + /* count the number of tokens separated by ',' */ + for (str = local, save = NULL, pos = 0;; str = NULL, pos++) { + char *token = strtok_r(str, ":", &save); + + /* Check for no more tokens */ + if (token == NULL) + break; + + /* Parse based on postion */ + switch (pos) { + case 0: + parse_ipv4_string(token, + &entry->src_subnet.addr, + &entry->src_subnet.mask); + break; + case 1: + parse_ipv4_string(token, + &entry->dst_subnet.addr, + &entry->dst_subnet.mask); + break; + case 2: + if (0 == strcmp(token, "in")) + entry->input = TRUE; + else + entry->input = FALSE; + break; + case 3: + if (0 == strcmp(token, "esp")) { + entry->esp = TRUE; + } else if (0 == strcmp(token, "ah")) { + entry->ah = TRUE; + } else if (0 == strcmp(token, "both")) { + entry->esp = TRUE; + entry->ah = TRUE; + } + break; + default: + return -1; + } + } + + /* Verify all positions filled */ + if (4 != pos) + return -1; + + /* Add route to the list */ + sp_db->index++; + entry->next = sp_db->list; + sp_db->list = entry; + + return 0; +} + +/** + * Display one SP DB entry + * + * @param entry Pointer to entry to display + */ +static +void dump_sp_db_entry(sp_db_entry_t *entry) +{ + char src_subnet_str[32]; + char dst_subnet_str[32]; + + printf(" %s %s %s %s:%s\n", + ipv4_subnet_str(src_subnet_str, &entry->src_subnet), + ipv4_subnet_str(dst_subnet_str, &entry->dst_subnet), + entry->input ? "in" : "out", + entry->esp ? "esp" : "none", + entry->ah ? "ah" : "none"); +} + +/** + * Display the SP DB + */ +static +void dump_sp_db(void) +{ + sp_db_entry_t *entry; + + printf("\n" + "Security policy table\n" + "---------------------\n"); + + for (entry = sp_db->list; NULL != entry; entry = entry->next) + dump_sp_db_entry(entry); +} + +/** + * IPsec cache data base entry + */ +typedef struct ipsec_cache_entry_s { + struct ipsec_cache_entry_s *next; /**< Next entry on list */ + uint32_t src_ip; /**< Source v4 address */ + uint32_t dst_ip; /**< Destination v4 address */ + struct { + enum odp_cipher_alg alg; /**< Cipher algorithm */ + uint32_t spi; /**< Cipher SPI */ + uint32_t block_len; /**< Cipher block length */ + uint32_t iv_len; /**< Cipher IV length */ + } esp; + struct { + enum odp_auth_alg alg; /**< Auth algorithm */ + uint32_t spi; /**< Auth SPI */ + uint32_t icv_len; /**< Auth ICV length */ + } ah; + + /* Per SA state */ + struct { + odp_crypto_session_t session; /**< Crypto session handle */ + uint32_t esp_seq; /**< ESP TX sequence number */ + uint32_t ah_seq; /**< AH TX sequence number */ + uint8_t iv[32]; /**< ESP IV storage */ + } state; +} ipsec_cache_entry_t; + +/** + * IPsec cache data base global structure + */ +typedef struct ipsec_cache_s { + uint32_t index; /**< Index of next available entry */ + ipsec_cache_entry_t *in_list; /**< List of active input entries*/ + ipsec_cache_entry_t *out_list; /**< List of active output entries*/ + ipsec_cache_entry_t array[MAX_DB]; /**< Entry storage */ +} ipsec_cache_t; + +/** Global pointer to ipsec_cache db */ +static ipsec_cache_t *ipsec_cache; + +/** Initialize IPsec cache */ +static +void init_ipsec_cache(void) +{ + ipsec_cache = odp_shm_reserve("shm_ipsec_cache", + sizeof(ipsec_cache_t), + ODP_CACHE_LINE_SIZE); + if (ipsec_cache == NULL) { + ODP_ERR("Error: shared mem alloc failed.\n"); + exit(EXIT_FAILURE); + } + memset(ipsec_cache, 0, sizeof(*ipsec_cache)); +} + +/** + * Encode cipher and auth flags into valid cypto mode value + * + * @param cipher Cipher is required + * @param auth Authentication is required + * + * @return enum representing mode + */ +static +enum odp_crypto_combination derive_comb(boolean cipher, boolean auth) +{ + if (cipher && auth) + return ODP_CRYPTO_AUTH_CIPHERTEXT; + else if (cipher) + return ODP_CRYPTO_CIPHER_ONLY; + return ODP_CRYPTO_AUTH_ONLY; +} + +/** + * Create an entry in the IPsec cache + * + * @param cipher_sa Cipher SA DB entry pointer + * @param auth_sa Auth SA DB entry pointer + * @param async Crypto API preferred mode is async + * @param in Direction (input versus output) + * + * @return 0 if successful else -1 + */ +static +int create_ipsec_cache_entry(sa_db_entry_t *cipher_sa, + sa_db_entry_t *auth_sa, + boolean async, + boolean in) +{ + odp_crypto_rc_e rc; + struct odp_crypto_session_params params; + odp_buffer_t compl_event = ODP_BUFFER_INVALID; + ipsec_cache_entry_t *entry; + enum odp_crypto_ses_create_err ses_create_rc; + odp_crypto_session_t session; + + /* Verify we have a good entry */ + entry = &ipsec_cache->array[ipsec_cache->index]; + if (MAX_DB <= ipsec_cache->index) + return -1; + + /* Setup parameters and call crypto library to create session */ + params.op = (in) ? ODP_CRYPTO_OP_DECODE : ODP_CRYPTO_OP_ENCODE; + params.comb = derive_comb((NULL != cipher_sa), (NULL != auth_sa)); + if (async) { + params.pref_mode = ODP_CRYPTO_ASYNC; + params.compl_queue = completionq; + } else { + params.pref_mode = ODP_CRYPTO_SYNC; + params.compl_queue = ODP_QUEUE_INVALID; + } + + /* Cipher */ + if (cipher_sa) { + params.cipher_alg = cipher_sa->alg.cipher; + params.cipher_key = &cipher_sa->key; + params.iv = entry->state.iv; + params.iv_len = cipher_sa->iv_len; + } else { + params.cipher_alg = ODP_CIPHER_ALG_NULL; + params.iv = NULL; + params.iv_len = 0; + } + + /* Auth */ + if (auth_sa) { + params.auth_alg = auth_sa->alg.auth; + params.auth_key = &auth_sa->key; + } else { + params.auth_alg = ODP_AUTH_ALG_NULL; + } + + /* Generate an IV */ + if (params.iv_len) + odp_hw_random_get(params.iv, ¶ms.iv_len, 1); + + /* Synchronous session create for now */ + compl_event = odp_buffer_alloc(msg_pool); + rc = odp_crypto_session_create(¶ms, compl_event, ODP_QUEUE_INVALID); + if (ODP_CRYPTO_OP_OK != rc) + return -1; + odp_crypto_get_ses_create_compl_status(compl_event, &ses_create_rc); + if (ODP_CRYPTO_SES_CREATE_OK != ses_create_rc) + return -1; + odp_crypto_get_ses_create_compl_session(compl_event, &session); + odp_buffer_free(compl_event); + + /* Copy remainder */ + if (cipher_sa) { + entry->src_ip = cipher_sa->src_ip; + entry->dst_ip = cipher_sa->dst_ip; + entry->esp.alg = cipher_sa->alg.cipher; + entry->esp.spi = cipher_sa->spi; + entry->esp.block_len = cipher_sa->block_len; + entry->esp.iv_len = cipher_sa->iv_len; + } + if (auth_sa) { + entry->ah.alg = auth_sa->alg.auth; + entry->ah.spi = auth_sa->spi; + entry->ah.icv_len = auth_sa->icv_len; + } + + /* Initialize state */ + entry->state.esp_seq = 0; + entry->state.ah_seq = 0; + entry->state.session = session; + + /* Add entry to the appropriate list */ + ipsec_cache->index++; + if (in) { + entry->next = ipsec_cache->in_list; + ipsec_cache->in_list = entry; + } else { + entry->next = ipsec_cache->out_list; + ipsec_cache->out_list = entry; + } + + return 0; +} + +/** + * Find a matching IPsec cache entry for input packet + * + * @param src_ip Source IPv4 address + * @param dst_ip Destination IPv4 address + * @param ah Pointer to AH header in packet else NULL + * @param esp Pointer to ESP header in packet else NULL + * + * @return pointer to IPsec cache entry else NULL + */ +static +ipsec_cache_entry_t *find_ipsec_cache_entry_in(uint32_t src_ip, + uint32_t dst_ip, + odp_ahhdr_t *ah, + odp_esphdr_t *esp) +{ + ipsec_cache_entry_t *entry = ipsec_cache->in_list; + + /* Look for a hit */ + for (; NULL != entry; entry = entry->next) { + if ((entry->src_ip != src_ip) || (entry->dst_ip != dst_ip)) + continue; + if (ah && + ((!entry->ah.alg) || + (entry->ah.spi != odp_be_to_cpu_32(ah->spi)))) + continue; + if (esp && + ((!entry->esp.alg) || + (entry->esp.spi != odp_be_to_cpu_32(esp->spi)))) + continue; + break; + } + + return entry; +} + +/** + * Find a matching IPsec cache entry for output packet + * + * @param src_ip Source IPv4 address + * @param dst_ip Destination IPv4 address + * @param proto IPv4 protocol (currently all protocols match) + * + * @return pointer to IPsec cache entry else NULL + */ +static +ipsec_cache_entry_t *find_ipsec_cache_entry_out(uint32_t src_ip, + uint32_t dst_ip, + uint8_t proto ODP_UNUSED) +{ + ipsec_cache_entry_t *entry = ipsec_cache->out_list; + + /* Look for a hit */ + for (; NULL != entry; entry = entry->next) { + if ((entry->src_ip == src_ip) && (entry->dst_ip == dst_ip)) + break; + } + return entry; +} + +/** + * Forwarding data base entry + */ +typedef struct fwd_db_entry_s { + struct fwd_db_entry_s *next; /**< Next entry on list */ + char *oif; /**< Output interface name */ + odp_queue_t queue; /**< Output transmit queue */ + uint8_t src_mac[6]; /**< Output source MAC */ + uint8_t dst_mac[6]; /**< Output destination MAC */ + ip_addr_range_t subnet; /**< Subnet for this router */ +} fwd_db_entry_t; + +/** + * Forwarding data base global structure + */ +typedef struct fwd_db_s { + uint32_t index; /**< Next available entry */ + fwd_db_entry_t *list; /**< List of active routes */ + fwd_db_entry_t array[MAX_DB]; /**< Entry storage */ +} fwd_db_t; + +/** Global pointer to fwd db */ +static fwd_db_t *fwd_db; + +/** Initialize FWD DB */ +static +void init_fwd_db(void) +{ + fwd_db = odp_shm_reserve("shm_fwd_db", + sizeof(fwd_db_t), + ODP_CACHE_LINE_SIZE); + if (fwd_db == NULL) { + ODP_ERR("Error: shared mem alloc failed.\n"); + exit(EXIT_FAILURE); + } + memset(fwd_db, 0, sizeof(*fwd_db)); +} + +/** + * Create a forwarding database entry + * + * String is of the format "SubNet:Intf:NextHopMAC" + * + * @param input Pointer to string describing route + * + * @return 0 if successful else -1 + */ +static +int create_fwd_db_entry(char *input) +{ + int pos; + char *local, *str, *save; + fwd_db_entry_t *entry = &fwd_db->array[fwd_db->index]; + + /* Verify we haven't run out of space */ + if (MAX_DB <= fwd_db->index) + return -1; + + /* Make a local copy */ + local = malloc(strlen(input) + 1); + if (local == NULL) + return -1; + strcpy(local, input); + + /* count the number of tokens separated by ',' */ + for (str = local, save = NULL, pos = 0;; str = NULL, pos++) { + char *token = strtok_r(str, ":", &save); + + /* Check for no more tokens */ + if (token == NULL) + break; + + /* Parse based on postion */ + switch (pos) { + case 0: + parse_ipv4_string(token, + &entry->subnet.addr, + &entry->subnet.mask); + break; + case 1: + entry->oif = token; + break; + case 2: + parse_mac_string(token, entry->dst_mac); + break; + default: + return -1; + } + } + + /* Verify all positions filled */ + if (3 != pos) + return -1; + + /* Reset queue to invalid */ + entry->queue = ODP_QUEUE_INVALID; + + /* Add route to the list */ + fwd_db->index++; + entry->next = fwd_db->list; + fwd_db->list = entry; + + return 0; +} + +/** + * Scan FWD DB entries and resolve output queue and source MAC address + * + * @param intf Interface name string + * @param outq Output queue for packet transmit + * @param mac MAC address of this interface + */ +static +void resolve_fwd_db(char *intf, odp_queue_t outq, uint8_t *mac) +{ + fwd_db_entry_t *entry; + + /* Walk the list and attempt to set output queue and MAC */ + for (entry = fwd_db->list; NULL != entry; entry = entry->next) { + if (strcmp(intf, entry->oif)) + continue; + + entry->queue = outq; + memcpy(entry->src_mac, mac, 6); + } +} + +/** + * Display one fowarding database entry + * + * @param entry Pointer to entry to display + */ +static +void dump_fwd_db_entry(fwd_db_entry_t *entry) +{ + char subnet_str[32]; + char mac_str[32]; + + printf(" %s %s %s\n", + ipv4_subnet_str(subnet_str, &entry->subnet), + entry->oif, + mac_addr_str(mac_str, entry->dst_mac)); +} + +/** + * Display the forwarding database + */ +static +void dump_fwd_db(void) +{ + fwd_db_entry_t *entry; + + printf("\n" + "Routing table\n" + "-------------\n"); + + for (entry = fwd_db->list; NULL != entry; entry = entry->next) + dump_fwd_db_entry(entry); +} + +/** + * Find a matching forwarding database entry + * + * @param dst_ip Destination IPv4 address + * + * @return pointer to forwarding DB entry else NULL + */ +static +fwd_db_entry_t *find_fwd_db_entry(uint32_t dst_ip) +{ + fwd_db_entry_t *entry; + + for (entry = fwd_db->list; NULL != entry; entry = entry->next) + if (entry->subnet.addr == (dst_ip & entry->subnet.mask)) + break; + return entry; +} + +/** + * IPsec pre argument processing intialization + */ +static +void ipsec_init_pre(void) +{ + odp_queue_param_t qparam; + void *pool_base; + + /* + * Create queues + * + * - completion queue (should eventually be ORDERED) + * - sequence number queue (must be ATOMIC) + */ + qparam.sched.prio = ODP_SCHED_PRIO_HIGHEST; + qparam.sched.sync = ODP_SCHED_SYNC_ATOMIC; + qparam.sched.group = ODP_SCHED_GROUP_DEFAULT; + + completionq = odp_queue_create("completion", + ODP_QUEUE_TYPE_SCHED, + &qparam); + if (completionq == ODP_QUEUE_INVALID) { + ODP_ERR("Error: completion queue creation failed\n"); + exit(EXIT_FAILURE); + } + + qparam.sched.prio = ODP_SCHED_PRIO_HIGHEST; + qparam.sched.sync = ODP_SCHED_SYNC_ATOMIC; + qparam.sched.group = ODP_SCHED_GROUP_DEFAULT; + + seqnumq = odp_queue_create("seqnum", + ODP_QUEUE_TYPE_SCHED, + &qparam); + if (seqnumq == ODP_QUEUE_INVALID) { + ODP_ERR("Error: sequence number queue creation failed\n"); + exit(EXIT_FAILURE); + } + + /* Create session creation message pool */ + pool_base = odp_shm_reserve("shm_msg_pool", + MSG_POOL_SIZE, ODP_CACHE_LINE_SIZE); + + msg_pool = odp_buffer_pool_create("msg_pool", pool_base, + MSG_POOL_SIZE, + MSG_POOL_BUF_SIZE, + ODP_CACHE_LINE_SIZE, + ODP_BUFFER_TYPE_RAW); + + if (msg_pool == ODP_BUFFER_POOL_INVALID) { + ODP_ERR("Error: message pool create failed.\n"); + exit(EXIT_FAILURE); + } + + /* Initialize our data bases */ + init_sp_db(); + init_sa_db(); + init_ipsec_cache(); +} + +/** + * IPsec post argument processing intialization + * + * Resolve SP DB with SA DB and create corresponding IPsec cache entries + * + * @param async Mode to use when invoking per packet crypto API + */ +static +void ipsec_init_post(boolean async) +{ + sp_db_entry_t *entry; + + /* Attempt to find appropriate SA for each SP */ + for (entry = sp_db->list; NULL != entry; entry = entry->next) { + sa_db_entry_t *cipher_sa = NULL; + sa_db_entry_t *auth_sa = NULL; + + if (entry->esp) + cipher_sa = find_sa_db_entry(&entry->src_subnet, + &entry->dst_subnet, + 1); + if (entry->ah) + auth_sa = find_sa_db_entry(&entry->src_subnet, + &entry->dst_subnet, + 0); + + if (cipher_sa || auth_sa) + create_ipsec_cache_entry(cipher_sa, + auth_sa, + async, + entry->input); + else { + printf(" WARNING: SA not found for SP\n"); + dump_sp_db_entry(entry); + } + } +} + +/** + * Initialize interface + * + * Initialize ODP pktio and queues, query MAC address and update + * forwarding database. + * + * @param intf Interface name string + * @param type Packet IO type (BASIC, MMSG, MMAP) + * @param fanout Packet IO fanout + */ +static +void initialize_intf(char *intf, int type, int fanout) +{ + odp_buffer_pool_t pkt_pool; + odp_pktio_t pktio; + odp_queue_t outq_def; + odp_queue_t inq_def; + char inq_name[ODP_QUEUE_NAME_LEN]; + odp_queue_param_t qparam; + int ret; + odp_pktio_params_t params; + socket_params_t *sock_params = ¶ms.sock_params; + uint8_t src_mac[6]; + char src_mac_str[32]; + + /* Lookup the packet pool */ + pkt_pool = odp_buffer_pool_lookup("packet_pool"); + if (pkt_pool == ODP_BUFFER_POOL_INVALID) { + ODP_ERR("Error: pkt_pool not found\n"); + exit(EXIT_FAILURE); + } + + /* + * Open a packet IO instance for thread and get default output queue + */ + sock_params->type = type; + sock_params->fanout = fanout; + pktio = odp_pktio_open(intf, pkt_pool, ¶ms); + if (pktio == ODP_PKTIO_INVALID) { + ODP_ERR("Error: pktio create failed for %s\n", intf); + exit(EXIT_FAILURE); + } + outq_def = odp_pktio_outq_getdef(pktio); + + /* + * Create and set the default INPUT queue associated with the 'pktio' + * resource + */ + qparam.sched.prio = ODP_SCHED_PRIO_DEFAULT; + qparam.sched.sync = ODP_SCHED_SYNC_ATOMIC; + qparam.sched.group = ODP_SCHED_GROUP_DEFAULT; + snprintf(inq_name, sizeof(inq_name), "%i-pktio_inq_def", (int)pktio); + inq_name[ODP_QUEUE_NAME_LEN - 1] = '\0'; + + inq_def = odp_queue_create(inq_name, ODP_QUEUE_TYPE_PKTIN, &qparam); + if (inq_def == ODP_QUEUE_INVALID) { + ODP_ERR("Error: pktio queue creation failed for %s\n", intf); + exit(EXIT_FAILURE); + } + + ret = odp_pktio_inq_setdef(pktio, inq_def); + if (ret != 0) { + ODP_ERR("Error: default input-Q setup for %s\n", intf); + exit(EXIT_FAILURE); + } + + /* read the source MAC address for this interface */ + query_mac_address(intf, src_mac); + + printf("Created pktio:%02i, queue mode (ATOMIC queues)\n" + " default pktio%02i-INPUT queue:%u\n" + " source mac address %s\n", + pktio, pktio, inq_def, mac_addr_str(src_mac_str, src_mac)); + + /* Resolve any routes using this interface for output */ + resolve_fwd_db(intf, outq_def, src_mac); +} + +/** + * Locate IPsec headers (AH and/or ESP) in packet + * + * @param ip Pointer to packets IPv4 header + * @param ah_p Pointer to location to return AH header pointer + * @param esp_p Pointer to location to return ESP header pointer + * + * @return length of IPsec headers found + */ +static +int locate_ipsec_headers(odp_ipv4hdr_t *ip, + odp_ahhdr_t **ah_p, + odp_esphdr_t **esp_p) +{ + uint8_t *in = ipv4_data_p(ip); + odp_ahhdr_t *ah = NULL; + odp_esphdr_t *esp = NULL; + + if (ODP_IPPROTO_AH == ip->proto) { + ah = (odp_ahhdr_t *)in; + in += ((ah)->ah_len + 2) * 4; + if (ODP_IPPROTO_ESP == ah->next_header) { + esp = (odp_esphdr_t *)in; + in += sizeof(odp_esphdr_t); + } + } else if (ODP_IPPROTO_ESP == ip->proto) { + esp = (odp_esphdr_t *)in; + in += sizeof(odp_esphdr_t); + } + + *ah_p = ah; + *esp_p = esp; + return in - (ipv4_data_p(ip)); +} + +/** + * Verify crypto operation completed successfully + * + * @param status Pointer to cryto completion structure + * + * @return TRUE if all OK else FALSE + */ +static +boolean is_crypto_compl_status_ok(struct odp_crypto_compl_status *status) +{ + if (status->alg_err != ODP_CRYPTO_ALG_ERR_NONE) + return FALSE; + if (status->hw_err != ODP_CRYPTO_HW_ERR_NONE) + return FALSE; + return TRUE; +} + +/** + * Packet Processing - Input verification + * + * @param pkt Packet to inspect + * @param ctx Packet process context (not used) + * + * @return PKT_CONTINUE if good, supported packet else PKT_DROP + */ +static +pkt_disposition_e input_verify(odp_packet_t pkt, pkt_ctx_t *ctx ODP_UNUSED) +{ + if (odp_unlikely(odp_packet_error(pkt))) + return PKT_DROP; + + if (!odp_packet_inflag_eth(pkt)) + return PKT_DROP; + + if (!odp_packet_inflag_ipv4(pkt)) + return PKT_DROP; + + return PKT_CONTINUE; +} + +/** + * Packet Processing - Route lookup in forwarding database + * + * @param pkt Packet to route + * @param ctx Packet process context + * + * @return PKT_CONTINUE if route found else PKT_DROP + */ +static +pkt_disposition_e route_fwd_db(odp_packet_t pkt, pkt_ctx_t *ctx) +{ + odp_ipv4hdr_t *ip = (odp_ipv4hdr_t *)odp_packet_l3(pkt); + fwd_db_entry_t *entry; + + entry = find_fwd_db_entry(odp_be_to_cpu_32(ip->dst_addr)); + + if (entry) { + odp_ethhdr_t *eth = (odp_ethhdr_t *)odp_packet_l2(pkt); + + memcpy(ð->dst, entry->dst_mac, 6); + memcpy(ð->src, entry->src_mac, 6); + ctx->outq = entry->queue; + + return PKT_CONTINUE; + } + + return PKT_DROP; +} + +/** + * Packet Processing - Input IPsec packet classification + * + * Verify the received packet has IPsec headers and a match + * in the IPsec cache, if so issue crypto request else skip + * input crypto. + * + * @param pkt Packet to classify + * @param ctx Packet process context + * @param skip Pointer to return "skip" indication + * + * @return PKT_CONTINUE if done else PKT_POSTED + */ +static +pkt_disposition_e do_ipsec_in_classify(odp_packet_t pkt, + pkt_ctx_t *ctx, + boolean *skip) +{ + uint8_t *buf = odp_packet_buf_addr(pkt); + odp_ipv4hdr_t *ip = (odp_ipv4hdr_t *)odp_packet_l3(pkt); + int hdr_len; + odp_ahhdr_t *ah = NULL; + odp_esphdr_t *esp = NULL; + ipsec_cache_entry_t *entry; + struct odp_crypto_op_params params; + odp_crypto_rc_e rc; + + /* Default to skip IPsec */ + *skip = TRUE; + + /* Check IP header for IPSec protocols and look it up */ + hdr_len = locate_ipsec_headers(ip, &ah, &esp); + if (!ah && !esp) + return PKT_CONTINUE; + entry = find_ipsec_cache_entry_in(odp_be_to_cpu_32(ip->src_addr), + odp_be_to_cpu_32(ip->dst_addr), + ah, + esp); + if (!entry) + return PKT_CONTINUE; + + /* Account for configured ESP IV length in packet */ + hdr_len += entry->esp.iv_len; + + /* Initialize parameters block */ + memset(¶ms, 0, sizeof(params)); + params.session = entry->state.session; + params.pkt = pkt; + params.out_pkt = pkt; + + /*Save everything to context */ + ctx->ipsec.ip_tos = ip->tos; + ctx->ipsec.ip_frag_offset = odp_be_to_cpu_16(ip->frag_offset); + ctx->ipsec.ip_ttl = ip->ttl; + ctx->ipsec.ah_offset = ((uint8_t *)ah) - buf; + ctx->ipsec.esp_offset = ((uint8_t *)esp) - buf; + ctx->ipsec.hdr_len = hdr_len; + ctx->ipsec.trl_len = 0; + + /*If authenticating, zero the mutable fields build the request */ + if (ah) { + ip->chksum = 0; + ip->tos = 0; + ip->frag_offset = 0; + ip->ttl = 0; + + params.auth_range.offset = ((uint8_t *)ip) - buf; + params.auth_range.length = odp_be_to_cpu_16(ip->tot_len); + params.hash_result_offset = ah->icv - buf; + } + + /* If deciphering build request */ + if (esp) { + params.cipher_range.offset = ipv4_data_p(ip) + hdr_len - buf; + params.cipher_range.length = ipv4_data_len(ip) - hdr_len; + params.override_iv_ptr = esp->iv; + } + + /* Issue crypto request */ + *skip = FALSE; + rc = odp_crypto_operation(¶ms, odp_buffer_from_packet(pkt)); + if (ODP_CRYPTO_OP_ERROR == rc) + abort(); + if (ODP_CRYPTO_OP_POSTED == rc) + return PKT_POSTED; + return PKT_CONTINUE; +} + +/** + * Packet Processing - Input IPsec packet processing cleanup + * + * @param pkt Packet to handle + * @param ctx Packet process context + * + * @return PKT_CONTINUE if successful else PKT_DROP + */ +static +pkt_disposition_e do_ipsec_in_finish(odp_packet_t pkt, + pkt_ctx_t *ctx) +{ + odp_buffer_t event; + struct odp_crypto_compl_status cipher_rc, auth_rc; + odp_ipv4hdr_t *ip = (odp_ipv4hdr_t *)odp_packet_l3(pkt); + int hdr_len = ctx->ipsec.hdr_len; + int trl_len = 0; + + /* Check crypto result */ + event = odp_buffer_from_packet(pkt); + odp_crypto_get_operation_compl_status(event, &cipher_rc, &auth_rc); + if (!is_crypto_compl_status_ok(&cipher_rc)) + return PKT_DROP; + if (!is_crypto_compl_status_ok(&auth_rc)) + return PKT_DROP; + + /* + * Finish cipher by finding ESP trailer and processing + * + * NOTE: ESP authentication ICV not supported + */ + if (ctx->ipsec.esp_offset) { + uint8_t *eop = (uint8_t *)(ip) + odp_be_to_cpu_16(ip->tot_len); + odp_esptrl_t *esp_t = (odp_esptrl_t *)(eop) - 1; + + ip->proto = esp_t->next_header; + trl_len += esp_t->pad_len + sizeof(*esp_t); + } + + /* Finalize the IPv4 header */ + ipv4_adjust_len(ip, -(hdr_len + trl_len)); + ip->ttl = ctx->ipsec.ip_ttl; + ip->tos = ctx->ipsec.ip_tos; + ip->frag_offset = odp_cpu_to_be_16(ctx->ipsec.ip_frag_offset); + ip->chksum = 0; + odp_ipv4_csum_update(pkt); + + /* Correct the packet length and move payload into position */ + odp_packet_set_len(pkt, odp_packet_get_len(pkt) - (hdr_len + trl_len)); + memmove(ipv4_data_p(ip), + ipv4_data_p(ip) + hdr_len, + odp_be_to_cpu_16(ip->tot_len)); + + /* Fall through to next state */ + return PKT_CONTINUE; +} + +/** + * Packet Processing - Output IPsec packet classification + * + * Verify the outbound packet has a match in the IPsec cache, + * if so issue prepend IPsec headers and prepare parameters + * for crypto API call. Post the packet to ATOMIC queue so + * that sequence numbers can be applied in packet order as + * the next processing step. + * + * @param pkt Packet to classify + * @param ctx Packet process context + * @param skip Pointer to return "skip" indication + * + * @return PKT_CONTINUE if done else PKT_POSTED + */ +static +pkt_disposition_e do_ipsec_out_classify(odp_packet_t pkt, + pkt_ctx_t *ctx, + boolean *skip) +{ + uint8_t *buf = odp_packet_buf_addr(pkt); + odp_ipv4hdr_t *ip = (odp_ipv4hdr_t *)odp_packet_l3(pkt); + uint16_t ip_data_len = ipv4_data_len(ip); + uint8_t *ip_data = ipv4_data_p(ip); + ipsec_cache_entry_t *entry; + struct odp_crypto_op_params params; + int hdr_len = 0; + int trl_len = 0; + odp_ahhdr_t *ah = NULL; + odp_esphdr_t *esp = NULL; + + /* Default to skip IPsec */ + *skip = TRUE; + + /* Find record */ + entry = find_ipsec_cache_entry_out(odp_be_to_cpu_32(ip->src_addr), + odp_be_to_cpu_32(ip->dst_addr), + ip->proto); + if (!entry) + return PKT_CONTINUE; + + /* Save IPv4 stuff */ + ctx->ipsec.ip_tos = ip->tos; + ctx->ipsec.ip_frag_offset = odp_be_to_cpu_16(ip->frag_offset); + ctx->ipsec.ip_ttl = ip->ttl; + + /* Initialize parameters block */ + memset(¶ms, 0, sizeof(params)); + params.session = entry->state.session; + params.pkt = pkt; + params.out_pkt = pkt; + + /* Compute ah and esp, determine length of headers, move the data */ + if (entry->ah.alg) { + ah = (odp_ahhdr_t *)(ip_data); + hdr_len += sizeof(odp_ahhdr_t); + hdr_len += entry->ah.icv_len; + } + if (entry->esp.alg) { + esp = (odp_esphdr_t *)(ip_data + hdr_len); + hdr_len += sizeof(odp_esphdr_t); + hdr_len += entry->esp.iv_len; + } + memmove(ip_data + hdr_len, ip_data, ip_data_len); + ip_data += hdr_len; + + /* For cipher, compute encrypt length, build headers and request */ + if (esp) { + uint32_t encrypt_len; + odp_esptrl_t *esp_t; + + encrypt_len = ESP_ENCODE_LEN(ip_data_len + sizeof(*esp_t), + entry->esp.block_len); + trl_len = encrypt_len - ip_data_len; + + esp->spi = odp_cpu_to_be_32(entry->esp.spi); + memcpy(esp + 1, entry->state.iv, entry->esp.iv_len); + + esp_t = (odp_esptrl_t *)(ip_data + encrypt_len) - 1; + esp_t->pad_len = trl_len - sizeof(*esp_t); + esp_t->next_header = ip->proto; + ip->proto = ODP_IPPROTO_ESP; + + params.cipher_range.offset = ip_data - buf; + params.cipher_range.length = encrypt_len; + } + + /* For authentication, build header clear mutables and build request */ + if (ah) { + memset(ah, 0, sizeof(*ah) + entry->ah.icv_len); + ah->spi = odp_cpu_to_be_32(entry->ah.spi); + ah->ah_len = 1 + (entry->ah.icv_len / 4); + ah->next_header = ip->proto; + ip->proto = ODP_IPPROTO_AH; + + ip->chksum = 0; + ip->tos = 0; + ip->frag_offset = 0; + ip->ttl = 0; + + params.auth_range.offset = ((uint8_t *)ip) - buf; + params.auth_range.length = + odp_be_to_cpu_16(ip->tot_len) + (hdr_len + trl_len); + params.hash_result_offset = ah->icv - buf; + } + + /* Set IPv4 length before authentication */ + ipv4_adjust_len(ip, hdr_len + trl_len); + + /* Save remaining context */ + ctx->ipsec.hdr_len = hdr_len; + ctx->ipsec.trl_len = trl_len; + ctx->ipsec.ah_offset = ((uint8_t *)ah) - buf; + ctx->ipsec.esp_offset = ((uint8_t *)esp) - buf; + ctx->ipsec.ah_seq = &entry->state.ah_seq; + ctx->ipsec.esp_seq = &entry->state.esp_seq; + memcpy(&ctx->ipsec.params, ¶ms, sizeof(params)); + + /* Send packet to the atmoic queue to assign sequence numbers */ + *skip = FALSE; + odp_queue_enq(seqnumq, odp_buffer_from_packet(pkt)); + return PKT_POSTED; +} + +/** + * Packet Processing - Output IPsec packet sequence number assignment + * + * Assign the necessary sequence numbers and then issue the crypto API call + * + * @param pkt Packet to handle + * @param ctx Packet process context + * + * @return PKT_CONTINUE if done else PKT_POSTED + */ +static +pkt_disposition_e do_ipsec_out_seq(odp_packet_t pkt, + pkt_ctx_t *ctx) +{ + uint8_t *buf = odp_packet_buf_addr(pkt); + odp_crypto_rc_e rc; + + /* We were dispatched from atomic queue, assign sequence numbers */ + if (ctx->ipsec.ah_offset) { + odp_ahhdr_t *ah; + + ah = (odp_ahhdr_t *)(ctx->ipsec.ah_offset + buf); + ah->seq_no = odp_cpu_to_be_32((*ctx->ipsec.ah_seq)++); + } + if (ctx->ipsec.esp_offset) { + odp_esphdr_t *esp; + + esp = (odp_esphdr_t *)(ctx->ipsec.esp_offset + buf); + esp->seq_no = odp_cpu_to_be_32((*ctx->ipsec.esp_seq)++); + } + + /* Issue crypto request */ + rc = odp_crypto_operation(&ctx->ipsec.params, + odp_buffer_from_packet(pkt)); + if (ODP_CRYPTO_OP_ERROR == rc) + abort(); + if (ODP_CRYPTO_OP_POSTED == rc) + return PKT_POSTED; + return PKT_CONTINUE; +} + +/** + * Packet Processing - Output IPsec packet processing cleanup + * + * @param pkt Packet to handle + * @param ctx Packet process context + * + * @return PKT_CONTINUE if successful else PKT_DROP + */ +static +pkt_disposition_e do_ipsec_out_finish(odp_packet_t pkt, + pkt_ctx_t *ctx) +{ + odp_buffer_t event; + struct odp_crypto_compl_status cipher_rc, auth_rc; + odp_ipv4hdr_t *ip = (odp_ipv4hdr_t *)odp_packet_l3(pkt); + int hdr_len = ctx->ipsec.hdr_len; + int trl_len = ctx->ipsec.trl_len; + + /* Check crypto result */ + event = odp_buffer_from_packet(pkt); + odp_crypto_get_operation_compl_status(event, &cipher_rc, &auth_rc); + if (!is_crypto_compl_status_ok(&cipher_rc)) + return PKT_DROP; + if (!is_crypto_compl_status_ok(&auth_rc)) + return PKT_DROP; + + /* Finalize the IPv4 header */ + ip->ttl = ctx->ipsec.ip_ttl; + ip->tos = ctx->ipsec.ip_tos; + ip->frag_offset = odp_cpu_to_be_16(ctx->ipsec.ip_frag_offset); + ip->chksum = 0; + odp_ipv4_csum_update(pkt); + odp_packet_set_len(pkt, odp_packet_get_len(pkt) + (hdr_len + trl_len)); + + /* Fall through to next state */ + return PKT_CONTINUE; +} + +/** + * Packet IO worker thread + * + * Loop calling odp_schedule to obtain packets from one of three sources, + * and continue processing the packet based on the state stored in its + * per packet context. + * + * - Input interfaces (i.e. new work) + * - Sequence number assignment queue + * - Per packet crypto API completion queue + * + * @param arg thread arguments of type 'thread_args_t *' + * + * @return NULL (should never return) + */ +static +void *pktio_thread(void *arg ODP_UNUSED) +{ + int thr; + odp_packet_t pkt; + odp_buffer_t buf; + unsigned long pkt_cnt = 0; + + thr = odp_thread_id(); + + printf("Pktio thread [%02i] starts\n", thr); + + odp_barrier_sync(&sync_barrier); + + /* Loop packets */ + for (;;) { + pkt_disposition_e rc; + pkt_ctx_t *ctx; + odp_queue_t dispatchq; + + /* Use schedule to get buf from any input queue */ + buf = odp_schedule(&dispatchq, ODP_SCHED_WAIT); + pkt = odp_packet_from_buffer(buf); + ctx = get_ctx_from_buf(buf); + + /* Determine new work versus completion or sequence number */ + if ((completionq != dispatchq) && (seqnumq != dispatchq)) { + memset(ctx, 0, sizeof(*ctx)); + ctx->state = PKT_STATE_INPUT_VERIFY; + } + + /* + * We now have a packet and its associated context. Loop here + * executing processing based on the current state value stored + * in the context as long as the processing return code + * indicates PKT_CONTINUE. + * + * For other return codes: + * + * o PKT_DONE - finished with the packet + * o PKT_DROP - something incorrect about the packet, drop it + * o PKT_POSTED - packet/event has been queued for later + */ + do { + boolean skip; + + switch (ctx->state) { + case PKT_STATE_INPUT_VERIFY: + + rc = input_verify(pkt, ctx); + ctx->state = PKT_STATE_IPSEC_IN_CLASSIFY; + break; + + case PKT_STATE_IPSEC_IN_CLASSIFY: + + rc = do_ipsec_in_classify(pkt, ctx, &skip); + ctx->state = (skip) ? + PKT_STATE_ROUTE_LOOKUP : + PKT_STATE_IPSEC_IN_FINISH; + break; + + case PKT_STATE_IPSEC_IN_FINISH: + + rc = do_ipsec_in_finish(pkt, ctx); + ctx->state = PKT_STATE_ROUTE_LOOKUP; + break; + + case PKT_STATE_ROUTE_LOOKUP: + + rc = route_fwd_db(pkt, ctx); + ctx->state = PKT_STATE_IPSEC_OUT_CLASSIFY; + break; + + case PKT_STATE_IPSEC_OUT_CLASSIFY: + + rc = do_ipsec_out_classify(pkt, ctx, &skip); + ctx->state = (skip) ? + PKT_STATE_TRANSMIT : + PKT_STATE_IPSEC_OUT_SEQ; + break; + + case PKT_STATE_IPSEC_OUT_SEQ: + + rc = do_ipsec_out_seq(pkt, ctx); + ctx->state = PKT_STATE_IPSEC_OUT_FINISH; + break; + + case PKT_STATE_IPSEC_OUT_FINISH: + + rc = do_ipsec_out_finish(pkt, ctx); + ctx->state = PKT_STATE_TRANSMIT; + break; + + case PKT_STATE_TRANSMIT: + + odp_queue_enq(ctx->outq, buf); + rc = PKT_DONE; + break; + + default: + rc = PKT_DROP; + break; + } + } while (PKT_CONTINUE == rc); + + /* Check for drop */ + if (PKT_DROP == rc) + odp_packet_free(pkt); + + /* Print packet counts every once in a while */ + if (PKT_DONE == rc) { + if (odp_unlikely(pkt_cnt++ % 1000 == 0)) { + printf(" [%02i] pkt_cnt:%lu\n", thr, pkt_cnt); + fflush(NULL); + } + } + } + + /* unreachable */ + return NULL; +} + +/** + * ODP ipsec example main function + */ +int +main(int argc, char *argv[]) +{ + odp_linux_pthread_t thread_tbl[MAX_WORKERS]; + odp_buffer_pool_t pool; + int thr_id; + int num_workers; + void *pool_base; + int i; + int first_core; + int core_count; + + /* Init ODP before calling anything else */ + if (odp_init_global()) { + ODP_ERR("Error: ODP global init failed.\n"); + exit(EXIT_FAILURE); + } + odp_crypto_init(32); + + /* Reserve memory for args from shared mem */ + args = odp_shm_reserve("shm_args", sizeof(args_t), ODP_CACHE_LINE_SIZE); + if (args == NULL) { + ODP_ERR("Error: shared mem alloc failed.\n"); + exit(EXIT_FAILURE); + } + memset(args, 0, sizeof(*args)); + + /* Must init our databases before parsing args */ + ipsec_init_pre(); + init_fwd_db(); + + /* Parse and store the application arguments */ + parse_args(argc, argv, &args->appl); + + /* Print both system and application information */ + print_info(NO_PATH(argv[0]), &args->appl); + + core_count = odp_sys_core_count(); + num_workers = core_count; + + if (args->appl.core_count) + num_workers = args->appl.core_count; + + if (num_workers > MAX_WORKERS) + num_workers = MAX_WORKERS; + + printf("Num worker threads: %i\n", num_workers); + + /* Create a barrier to synchronize thread startup */ + odp_barrier_init_count(&sync_barrier, num_workers); + + /* + * By default core #0 runs Linux kernel background tasks. + * Start mapping thread from core #1 + */ + first_core = (core_count == 1) ? 0 : 1; + printf("First core: %i\n\n", first_core); + + /* Init this thread */ + thr_id = odp_thread_create(0); + odp_init_local(thr_id); + + /* Create packet buffer pool */ + pool_base = odp_shm_reserve("shm_packet_pool", + SHM_PKT_POOL_SIZE, ODP_CACHE_LINE_SIZE); + if (pool_base == NULL) { + ODP_ERR("Error: packet pool mem alloc failed.\n"); + exit(EXIT_FAILURE); + } + + pool = odp_buffer_pool_create("packet_pool", pool_base, + SHM_PKT_POOL_SIZE, + SHM_PKT_POOL_BUF_SIZE, + ODP_CACHE_LINE_SIZE, + ODP_BUFFER_TYPE_PACKET); + if (pool == ODP_BUFFER_POOL_INVALID) { + ODP_ERR("Error: packet pool create failed.\n"); + exit(EXIT_FAILURE); + } + + /* Populate our IPsec cache */ + printf("Using %s mode for crypto API\n\n", + (args->appl.async) ? "ASYNC" : "SYNC"); + ipsec_init_post(args->appl.async); + + /* Initialize interfaces (which resolves FWD DB entries */ + for (i = 0; i < args->appl.if_count; i++) { + initialize_intf(args->appl.if_names[i], + args->appl.type, + args->appl.fanout); + } + + /* + * Create and init worker threads + */ + memset(thread_tbl, 0, sizeof(thread_tbl)); + for (i = 0; i < num_workers; ++i) { + int core; + + core = (first_core + i) % core_count; + + /* + * Create threads one-by-one instead of all-at-once, + * because each thread might get different arguments. + * Calls odp_thread_create(cpu) for each thread + */ + odp_linux_pthread_create(thread_tbl, 1, core, pktio_thread, + &args->thread[i]); + } + + /* Master thread waits for other threads to exit */ + odp_linux_pthread_join(thread_tbl, num_workers); + + printf("Exit\n\n"); + + return 0; +} + +/** + * Parse and store the command line arguments + * + * @param argc argument count + * @param argv[] argument vector + * @param appl_args Store application arguments here + */ +static void parse_args(int argc, char *argv[], appl_args_t *appl_args) +{ + int opt; + int long_index; + char *names, *str, *token, *save; + size_t len; + int i; + static struct option longopts[] = { + {"count", required_argument, NULL, 'c'}, + {"interface", required_argument, NULL, 'i'}, /* return 'i' */ + {"mode", required_argument, NULL, 'm'}, /* return 'm' */ + {"route", required_argument, NULL, 'r'}, /* return 'r' */ + {"policy", required_argument, NULL, 'p'}, /* return 'p' */ + {"ah", required_argument, NULL, 'a'}, /* return 'a' */ + {"esp", required_argument, NULL, 'e'}, /* return 'e' */ + {"help", no_argument, NULL, 'h'}, /* return 'h' */ + {NULL, 0, NULL, 0} + }; + + appl_args->type = 3; /* 3: ODP_PKTIO_TYPE_SOCKET_MMAP */ + appl_args->fanout = 0; /* turn off fanout by default for mmap */ + appl_args->async = 0; /* turn off async crypto API by default */ + + while (1) { + opt = getopt_long(argc, argv, "+c:i:m:t:f:h:r:p:a:e:", + longopts, &long_index); + + if (opt == -1) + break; /* No more options */ + + switch (opt) { + case 'c': + appl_args->core_count = atoi(optarg); + break; + /* parse packet-io interface names */ + case 'i': + len = strlen(optarg); + if (len == 0) { + usage(argv[0]); + exit(EXIT_FAILURE); + } + len += 1; /* add room for '\0' */ + + names = malloc(len); + if (names == NULL) { + usage(argv[0]); + exit(EXIT_FAILURE); + } + + /* count the number of tokens separated by ',' */ + strcpy(names, optarg); + for (str = names, i = 0;; str = NULL, i++) { + token = strtok_r(str, ",", &save); + if (token == NULL) + break; + } + appl_args->if_count = i; + + if (appl_args->if_count == 0) { + usage(argv[0]); + exit(EXIT_FAILURE); + } + + /* allocate storage for the if names */ + appl_args->if_names = + calloc(appl_args->if_count, sizeof(char *)); + + /* store the if names (reset names string) */ + strcpy(names, optarg); + for (str = names, i = 0;; str = NULL, i++) { + token = strtok_r(str, ",", &save); + if (token == NULL) + break; + appl_args->if_names[i] = token; + } + break; + + case 't': + appl_args->type = atoi(optarg); + break; + + case 'f': + appl_args->fanout = atoi(optarg); + break; + + case 'm': + appl_args->async = atoi(optarg); + break; + + case 'r': + create_fwd_db_entry(optarg); + break; + + case 'p': + create_sp_db_entry(optarg); + break; + + case 'a': + create_sa_db_entry(optarg, FALSE); + break; + + case 'e': + create_sa_db_entry(optarg, TRUE); + break; + + case 'h': + usage(argv[0]); + exit(EXIT_SUCCESS); + break; + + default: + break; + } + } + + if (appl_args->if_count == 0) { + usage(argv[0]); + exit(EXIT_FAILURE); + } + + optind = 1; /* reset 'extern optind' from the getopt lib */ +} + +/** + * Print system and application info + */ +static void print_info(char *progname, appl_args_t *appl_args) +{ + int i; + + printf("\n" + "ODP system info\n" + "---------------\n" + "ODP API version: %s\n" + "CPU model: %s\n" + "CPU freq (hz): %"PRIu64"\n" + "Cache line size: %i\n" + "Core count: %i\n" + "\n", + odp_version_api_str(), odp_sys_cpu_model_str(), odp_sys_cpu_hz(), + odp_sys_cache_line_size(), odp_sys_core_count()); + + printf("Running ODP appl: \"%s\"\n" + "-----------------\n" + "IF-count: %i\n" + "Using IFs: ", + progname, appl_args->if_count); + for (i = 0; i < appl_args->if_count; ++i) + printf(" %s", appl_args->if_names[i]); + + printf("\n"); + + dump_fwd_db(); + dump_sp_db(); + dump_sa_db(); + printf("\n\n"); + fflush(NULL); +} + +/** + * Prinf usage information + */ +static void usage(char *progname) +{ + printf("\n" + "Usage: %s OPTIONS\n" + " E.g. %s -i eth1,eth2,eth3 -m 0\n" + "\n" + "OpenDataPlane example application.\n" + "\n" + "Mandatory OPTIONS:\n" + " -i, --interface Eth interfaces (comma-separated, no spaces)\n" + " -t, --type 1: ODP_PKTIO_TYPE_SOCKET_BASIC\n" + " 2: ODP_PKTIO_TYPE_SOCKET_MMSG\n" + " 3: ODP_PKTIO_TYPE_SOCKET_MMAP\n" + " 4: ODP_PKTIO_TYPE_NETMAP\n" + " Default: 3: ODP_PKTIO_TYPE_SOCKET_MMAP\n" + " -f, --fanout 0: off 1: on (Default 1: on)\n" + " -m, --mode 0: sync 1: async crypto API (default 0)\n" + "\n" + "Routing / IPSec OPTIONS:\n" + " -r, --route SubNet:Intf:NextHopMAC\n" + " -p, --policy SrcSubNet:DstSubNet:(in|out):(ah|esp|both)\n" + " -e, --esp SrcIP:DstIP:(3des|null):SPI:Key192\n" + " -a, --ah SrcIP:DstIP:(md5|null):SPI:Key128\n" + "\n" + " Where: NextHopMAC is raw hex/dot notation, i.e. 03.BA.44.9A.CE.02\n" + " IP is decimal/dot notation, i.e. 192.168.1.1\n" + " SubNet is decimal/dot/slash notation, i.e 192.168.0.0/16\n" + " SPI is raw hex, 32 bits\n" + " KeyXXX is raw hex, XXX bits long\n" + "\n" + " Examples:\n" + " -r 192.168.222.0/24:p8p1:08.00.27.F5.8B.DB\n" + " -p 192.168.111.0/24:192.168.222.0/24:out:esp\n" + " -e 192.168.111.2:192.168.222.2:3des:201:656c8523255ccc23a66c1917aa0cf30991fce83532a4b224\n" + " -a 192.168.111.2:192.168.222.2:md5:201:a731649644c5dee92cbd9c2e7e188ee6\n" + "\n" + "Optional OPTIONS\n" + " -c, --count Core count.\n" + " -h, --help Display help and exit.\n" + "\n", NO_PATH(progname), NO_PATH(progname) + ); +}